Xiaoqing Song Source Confirmed

Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.

Federal Grant PI High Impact

Assistant Professor

University of Arkansas at Fayetteville

faculty

29 h-index 163 pubs 2,616 cited

Research Areas

Advancements in Semiconductor Devices and Circuit Design Silicon Carbide Semiconductor Technologies Multilevel Inverters and Converters Semiconductor materials and devices Power System Protection Nanoparticle-Based Drug Delivery

Links

ORCID Lab Website Research Group

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OverviewAI-generated summary

Dr. Xiaoqing Song's research focuses on power electronics, particularly wide bandgap semiconductor devices, power electronics packaging, and solid-state switches for power system protection. He investigates the application and characterization of silicon carbide (SiC) MOSFETs for solid-state circuit breakers in DC distribution systems. His work also includes the design and evaluation of SiC MOSFET power modules, addressing aspects like system interface optimization and electric field distribution, as well as stacked substrate designs for partial discharge reduction.

Prior to joining the University of Arkansas in August 2022 as an Assistant Professor in the Department of Electrical Engineering and Computer Science, Dr. Song worked at ABB U.S. Corporate Research Center from 2017 to 2022. In this role, he led research and development projects focused on solid-state and hybrid circuit breakers and protection coordination in low and medium voltage DC distribution systems.

Dr. Song has authored over 160 peer-reviewed publications, including journal and conference papers, and holds 14 U.S. and international patents. His scholarly contributions are recognized by an h-index of 29 and over 2,600 citations. He has received funding from the National Science Foundation (NSF) for research on advancing high-density, high-operation-temperature traction inverters using Gallium Oxide packaged power modules, as well as for collaborative projects on precipitation and streamflow reconstruction in the Amazon River Basin and international urban resilience networks.

Metrics

  • h-index: 29
  • Publications: 163
  • Citations: 2,616

Selected Publications

  • Comparative Analysis Between Monolithically Integrated 1.2 kV Bi-Directional MOSFETs and Bi-Directional JBSFETs (2025) DOI
  • A Minimized Conduction Loss Multiport SSCB Design with Post-Fault Optimization (2025) DOI
  • Compact Model of β-Ga<sub>2</sub>O<sub>3</sub> Schottky Barrier Diode (2025) DOI
  • Design of Low Parasitic Inductance GaN HEMT Flip-Chip Power Module (2025) DOI
  • A SiC MOSFET Based Multi-Port Solid State Circuit Breaker for DC Protection (2024) DOI
  • A Multi-Port Solid State Circuit Breaker for LVDC Protection: Towards A Lossless Design (2024) DOI
  • High Temperature Characterization and Degradation Test of a Cascode Gallium Nitride Field Effect Transistor (2024) DOI
  • Thermal and Bonding Strength Evaluation of Die Attach Materials for Power Module Packaging (2024) DOI
  • A Phase Change Material Based Silicon Carbide Power Module Packaging (2024) DOI
  • A Review of Power Electronics Converters in Hydrogen Fuel Cell Application (2024) DOI
  • Cyber Resiliency of a Solid-State Power Substation (2024) DOI
  • A 10 kV SiC MOSFET Power Module With Optimized System Interface and Electric Field Distribution (2024) DOI
  • Investigation of the Impact of Low Thermal Conductivity on Gallium Oxide Power Module Packaging (2023) DOI
  • Soft Turn-Off DC Solid-State Circuit Breakers With Flexible Dual Tripping Schemes (2023) DOI
  • SiC Based Solid State Circuit Breaker: Thermal Design and Analysis (2023) DOI

Federal Grants 3 $826,290 total

NSF Co-PI

Collaborative Research: Precipitation and Streamflow Reconstruction and Analysis in the Amazon River Basin

P4CLIMATE $276,385
NSF Co-PI

AccelNet-Design: International Networks Towards Future U.S. Urban Resilience (Resilient-NET)

AccelNet - Accelerating Resear $249,905
NSF PI

RII Track-4: NSF: Advancing High Density and High Operation Temperature Traction Inverter by Gallium Oxide Packaged Power Module

EPSCoR RII: EPSCoR Research Fe $300,000

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